JP2017091342A - Dial type control operation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dial type control operation device suitable to a control operation device for air conditioning which can be wired while bending of a cable is reduced as much as possible.SOLUTION: A dial type control operation device comprising a sun gear 32 transmitting driving force of an operation knob 31, a planetary gear 49, and a cable operating an external device comprises: a holder 33 which has the sun gear 32 pivoted rotatably; a marking plate 37 provided on one side of the holder 33 and having an indication part of the operation knob 31 placed to; and a base 39 provided with an inscribed gear 48 for guiding the planetary gear 49 in cooperation with the sun gear 32 and also provided with a cable holding part. The base 39 is enabled to be fitted on the other side of the holder 33 with the position on a circumference, having its center on an axis of rotation of the sun gear 32, change, and further the fitting angle of the marking plate 37 to the holder 33 is changed.SELECTED DRAWING: Figure 2

Description

The present invention relates to a dial type control operation device that transmits a driving force according to a turning operation of an operation knob to an external device via a cable and controls the operation of the external device.

There are various types of dial type control operation devices. As an example, a control operation device for air conditioning installed in an automobile will be described.
FIG. 8 is a front view of a control operation device for air conditioning, FIG. 9 is a cross-sectional view of the control operation device, and FIG. 10 is a simplified partial view showing a main part of the control operation device.

As shown in the figure, this control operating device has an operation knob 11 formed in a cylindrical shape for a dial knob for temperature adjustment, and an operation knob 12 on a knob convex portion disposed in the cylindrical shape of the operation knob 11 for an air volume adjustment dial. It is a knob.
That is, the operation knob 11 is rotated, and the temperature of the index 11a is selectively adjusted to the symbol 13a of the display unit 13 to adjust the temperature.
Further, the operation knob 12 is rotated by picking the convex portion with a fingertip, and the air volume is adjusted by selectively matching the index 12a with the symbol 14a of the display unit 14.

The operation knob 11 formed in a cylindrical shape forms a gear on the outer periphery of the rear portion, and the gear is a sun gear 11 b that interlocks with the planetary gear 15.
This operation knob 11 is rotatably fitted on the outer periphery of a case cylindrical portion 16a formed projecting in the case 16, and the indicator 11a is moderated at each position of the symbol 13a on the operation knob 11. Click stop mechanism (not shown) is provided.

On the other hand, a fixed cylindrical body 17 is fixed to the front portion of the case cylindrical portion 16a.
A plurality of radial bridge plates 18 are provided in the front end of the fixed cylindrical body 17 so that the cylindrical body 19 is supported by the bridge plates 18, and the operation knob 12 is attached to the cylindrical body 19. It is inserted so that it can rotate.
An operation shaft 20 a of the air volume adjustment switch 20 is fitted on the knob shaft 12 b of the operation knob 12.
In addition, a display plate 21 that forms the display portions 13 and 14 is fixed to the front side of the bridge plate 18 between the fixed cylindrical body 17 and the cylindrical body 19.
The air volume adjustment switch 20 is disposed in the rear case 22.

On the other hand, an arc-shaped guide shaft hole 23 through which the gear shaft 15 a of the planetary gear 15 is passed is formed in the rear case 22, and an arc-shaped inscribed portion disposed above the guide shaft hole 23 and the rear case 22. The rotation direction of the planetary gear 15 is guided by the gear 24.
An inner cable 25 a of the cable 25 is connected to the gear shaft 15 a protruding from the rear case 22.

  The cable 25 is composed of an outer cable 25b having a slidable inner cable 25a. As shown in FIG. 10, one end of the outer cable 25b is fixed to a holding portion 26 provided on the rear case 22, One end of the cable 25a is attached to the gear shaft 15a of the planetary gear 15 described above.

In the control operation device described above, the sun gear 11b rotates integrally in accordance with the rotation operation of the operation knob 11, so that the planetary gear 15 rotates in conjunction with the planetary gear 15 as shown in FIG. Turns within the range indicated by 15A and 15B.
From this, the inner cable 25a linearly moves in accordance with the movement of the planetary gear 15, is pushed out according to the turning operation of the operation knob 11, and is pulled back, so that the operation of the air conditioning unit as an external device is controlled. Temperature adjustment is performed.

Japanese Patent No. 4904546

The above-described control operation device for air conditioning can convert the turning operation of the operation knob 11 into the linear motion of the cable 25.
As a result, since the inner cable 25a becomes the cable 25 that moves smoothly in the outer cable 25b, the cable can be routed with less bending of the cable, and the control operation device can be operated lightly.

However, since the layout of the air conditioning unit may be changed for each vehicle type, it may be necessary to bend the cable largely and connect it to the air conditioning unit. In such a case, the sliding of the inner cable 25a relative to the outer cable 25b may occur. Since the dynamic resistance increases, the turning operation of the operation knob 11 becomes heavy and the feeling becomes worse.

Such a problem can be solved by manufacturing a control operation device that can be routed according to the arrangement of the air conditioning unit for each vehicle type whose layout of the air conditioning unit has changed, but it is expensive and control operation is less practical. It becomes a device.

In view of the above circumstances, the present invention proposes a dial type control operation device suitable for a control operation device or the like that can be routed with as little cable bending as possible even when the layout of the air conditioning unit changes. With the goal.

In order to achieve the above-described object, according to the present invention, as a first aspect of the present invention, an operation knob formed in a cylindrical shape and a cylinder that rotates integrally with the operation knob and transmits a driving force of the operation knob. A dial-type control operating device comprising a cylindrical sun gear, a planetary gear meshed with the sun gear, and a cable for operating the external device connected to the planetary gear. A holder that is fitted and rotatably supports the sun gear, a marking plate that is provided on one side of the holder and that indicates the rotation operation position of the operation knob by combining the indicator of the operation knob, and the sun A base that is formed in an arc shape along the periphery of the gear, provides an internal gear that guides the planetary gear in the movement direction in cooperation with the sun gear, and further includes a cable holding portion of the cable; A mounting setting section that allows the base to be mounted on the other side of the holder by changing the position on the circumference around the rotation axis of the holder, and a marking plate that can set the mounting angle of the marking plate with respect to the holder A dial-type control operation device characterized by comprising a setting unit is proposed.

As a second invention, in the dial-type control operating device according to the first invention described above, the sign plate setting portion provides a predetermined interval in either the peripheral portion of the holder or the peripheral portion of the sign plate. And a plurality of concave grooves formed on the other of the concave grooves, and one of the plurality of concave grooves is selected and fitted to set the mounting angle of the marking plate. A dial-type control operation device is proposed.

As a third invention, in the dial type control operating device according to the first invention described above, the connection position of the operation knob and the sun gear is changed in accordance with the setting of the marking plate setting section, and the sun gear is operated in the operation. A dial-type control operating device is provided, which is provided with a knob setting portion attached to the knob.

As a fourth invention, in the dial-type control operating device according to the third invention described above, the knob setting section has a plurality of recesses formed at a predetermined interval on either the operating knob or the sun gear. A dial-type control operating device comprising a groove and a convex portion that is provided on the other of the grooves and selects and fits one of the plurality of concave grooves to set the mounting angle of the sun gear. Propose.

As a fifth invention, in the dial type control operating device according to the first invention described above, the base is formed by a first base provided with an inscribed gear and a cable holding portion, and a second base attached to the holder. The first and second bases are provided with mounting setting portions that allow the second base to be mounted to the first base at a plurality of positions on the circumference around the rotation axis of the sun gear. A dial-type control operating device is proposed.

As a sixth invention, in the dial-type control operating device according to the fifth invention described above, the second base is at a plurality of positions on a circumference around the rotation axis of the sun gear with respect to the holder. A dial-type control operating device is provided which is provided with the above-described attachment setting portion that can be attached.

As a seventh invention, an operation knob formed in a cylindrical shape, a cylindrical sun gear that rotates integrally with the operation knob, and transmits the driving force of the operation knob, and the sun gear are connected. A planetary gear, a cable that is connected to the planetary gear to operate an external device, a holder that fits the cylindrical portion of the sun gear on the outer periphery and rotatably supports the sun gear, and one side of the holder The indicator plate of the operation knob is combined to indicate the rotation operation position of the operation knob, and is formed in an arc shape around the sun gear, and the planetary gear is cooperated with the sun gear. A first base provided with an inscribed gear that guides in the moving direction and the cable holding portion; a second base that is attachable to the first base and is attachable to the other side of the holder; and the sign plate for the holder Set the mounting angle In the dial type control operation device, the indicator plate is relative to the holder, the sun gear is relative to the operation knob, the second base is relative to the first base, and the holder is relative to the second base. A dial-type control operation device is proposed, which can be attached at a plurality of attachment angles around the rotation axis of the sun gear.

The control operation device according to the first aspect of the present invention is provided with an attachment setting section that allows the base to be attached to the holder by changing the position on the circumference around the rotation axis of the sun gear. Even when the layout with the external device to be controlled is changed, the cable can be connected to the external device with as little bending as possible by changing the mounting angle of the base appropriately.
As a result, regardless of the layout change of the control operation device and the external device for controlling the operation, the control operation device can be operated with light operation of the operation knob by reducing the sliding resistance of the cable.

  In addition, since this control operation device is provided with a sign plate setting section that can set the mount angle of the sign board with respect to the holder, the base mount angle is finely set by the sign plate setting section and the above-described mount setting section. Can be.

The control operation device according to the second aspect of the present invention includes a plurality of concave grooves formed at a predetermined interval in either the peripheral part of the holder or the peripheral part of the label plate, and the other of them. Since it was formed with a convex portion that selects and fits one of the plurality of concave grooves described above and sets the mounting angle of the marking plate, this marking plate setting portion is centered on the rotation axis of the sun gear. It is configured compactly.

According to a third aspect of the present invention, there is provided a control operating device including a knob setting section for changing a connection position of the operation knob and the sun gear according to an attachment angle of the marking plate and attaching the sun gear to the operation knob.
That is, even when the mounting angle of the marking plate is changed, the planetary gear meshed with the sun gear correctly moves the distance in accordance with the instruction from the instruction section of the operation knob and controls the movement of the cable.

  According to a fourth aspect of the present invention, there is provided a control operating device comprising: a plurality of concave grooves formed at a predetermined interval on either one of the operation knob or the sun gear; and one of the plurality of concave grooves provided on the other of them. Since the knob setting part comprised with the convex part which selects and fits and sets the attachment angle of a sun gear was provided, this knob setting part can be comprised compactly centering | focusing on the rotating shaft line of a sun gear.

According to a fifth aspect of the present invention, there is provided a control operating device, wherein a base is formed by a first base provided with an inscribed gear and a cable holding portion and a second base attached to the holder. The second base is characterized in that a mounting setting portion is provided that can be mounted to the first base at a plurality of positions on the circumference around the rotation axis of the sun gear.

The sixth invention is characterized in that, in the control operation device of the fifth invention, the second base is provided with the above-described attachment setting portion.
That is, according to this control operation device, the base mounting angle can be changed between the base mounting setting section, the second base mounting setting section, and the knob setting section as described above, and the base angle can be finely adjusted. become.

According to a seventh aspect of the present invention, there is provided the control operation device according to the present invention, wherein the indicator plate is relative to the holder, the sun gear is relative to the operation knob, the second base is relative to the first base, and the holder is relative to the second base. Each device can be attached at a plurality of attachment angles around the rotation axis of the sun gear, thereby reducing the size of the device.

It is a front view of the control operation apparatus for air conditioning which shows one Embodiment. It is the sectional view on the AA line on FIG. It is a disassembled perspective view of the same control operation device. It is a rear view of the marking board with which the above-mentioned control operation apparatus is equipped. It is a front view of the holder with which the above-mentioned control operation apparatus is equipped. It is a perspective view of a holder with which the above-mentioned control operation device is equipped. It is a rear view of the above-described control operation device. It is a front view of the control operation apparatus for air conditioning shown as a prior art example. It is sectional drawing of the control operation apparatus of the prior art example shown in FIG. FIG. 9 is a simplified partial view showing a main part of the conventional control operation device shown in FIG. 8.

Next, an embodiment implemented as a control operation device for air conditioning equipped with a dial type control operation device according to the present invention in a vehicle will be described with reference to the drawings.
1 is a front view of the control operation device, FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, and FIG. 3 is an exploded perspective view of the control operation device.

As shown in these drawings, the operation knob 31 is a wind direction adjusting knob formed in a cylindrical shape, and a cylindrical sun gear 32 is connected to the rear portion of the operation knob 31 so as to rotate integrally. It is.
The sun gear 32 has a gear 32b formed as a gear on the rear edge side of the cylindrical body portion 32a. Further, the outer surface of the cylindrical body portion 32a is provided with a connecting convex portion 32c for connecting to the operation knob 31 and the like. It is provided at each minute position.

In addition, a pair of connecting grooves 31a and 31b formed at an angle of 15 ° are provided at each of the four equal positions around the outer peripheral surface of the rear end side of the operation knob 31, and these connecting grooves 31a, 31b,
The sun gear 32 is connected to the operation knob 31 by selecting any one of 31 b and fitting the connecting convex portion 32 c of the sun gear 32.
The interlocking protrusion 32c and the interlocking recesses 31a and 31b form a knob setting part.

In this way, the sun gear 32 connected to the operation knob 31 has its cylindrical body portion 32 a fitted rotatably around the outer periphery of the cylindrical holder 33.
Further, the holder 33 is provided with a spring 34 and a small sphere 35 that give moderation when the instruction portion 31c of the operation knob 31 is rotated to each symbol 37a. The moderation mechanism is configured to drop into the 32 moderation grooves 32d.
The arc-shaped plate portion 36 provided on the inner surface of the sun gear 32 determines the rotation range of the sun gear 32.

  Further, a marking plate 37 provided with a wind direction adjusting symbol 37a is attached to the front surface of the holder 33. Each of the three equal positions around the rear surface of the marking plate 37 is shown in FIGS. As shown in the figure, mounting protrusions 37b that protrude rearward are provided, and these mounting protrusions 37b are fitted and attached to one of a pair of mounting grooves 33a and 33b formed in the front peripheral portion of the holder 33. It is as.

That is, as shown in FIGS. 3 and 5, a pair of mounting grooves 33a and 33b formed at an interval of 15 ° are formed at each of the three equal positions around the front surface of the holder 33. A configuration is adopted in which either one of 33 a and 33 b is selected and the mounting convex portion 37 b of the marking plate 37 is fitted to attach the marking plate 37 to the holder 33.
In addition, said attachment convex part 37b and attachment groove | channels 33a and 33b form the sign board setting part.

  Further, as shown in FIG. 6, the holder 33 is a bottomed cylindrical body, and the bottom plate portion 33c is provided with two screw holes 33d and 33e and a valve insertion hole 33f. A positioning pin 38 extending rearward is provided.

On the other hand, the base 39 is attached to the bottom plate portion 33c of the holder 33 fitted with the sun gear 32 as described above.
The base 39 is formed of a first base 39a in which a circular hole 40 is formed at a position corresponding to the mounting surface, and a second base 39b fitted and fixed in the circular hole 40.

That is, three angle adjusting grooves 41a, 41b, 41c formed at intervals of 20 ° (see FIG. 7) are provided in the left and right portions and the lower portion of the circular hole 40 of the first base 39a, and the second base. 39b can select and fix one of these angle adjusting grooves 41a, 41b, 41c.

The second base 39b is provided with fitting tongues 42 at the left and right parts and the lower part of the outer periphery of the cylinder, and these fitting tongues 42 are provided in any of the angle adjusting grooves 41a, 41b, 41c of the first base 39a. The second base 39b is fixed and attached to the first base 39a.
The angle adjusting grooves 41a, 41b, 41c and the fitting tongue piece 42 form a mounting setting portion for the second base 39b.

Further, the second base 39b is provided with a mounting hole 44 for the valve 43 on the rotation axis Q (see FIG. 2) of the sun gear 32, and at a portion corresponding to the circumference around the rotation axis Q. Are provided with a plurality of mounting screw holes 45 forming mounting setting portions of the base 39.
In this embodiment, the interval between the mounting screw holes 45 is set to 30 °.
The second base 39b is provided with an attachment arm 47 provided with a screw hole 47a for attaching and fixing to the first base 39a with an attachment screw 46.

On the other hand, an arc-shaped inscribed gear 48 is provided on the first base 39a, and a planetary gear 49 is provided between the inscribed gear 48 and the gear 32b of the sun gear 32.
The planetary gear 49 is provided with a connecting portion 49a of the cable 50 at a position eccentric from the rotation center. As can be seen from FIGS. 2 and 7, the connecting portion 49a is a horizontally long slot 51 provided in the first base 39a. Protrudes backwards from.

  As shown in FIG. 7, the inner cable 50a of the cable 50 is connected to the connecting portion 49a of the planetary gear 49, and one end portion of the outer cable 50b is fixed to the cable holding portion 52 provided on the first base 39a. It is made to wear.

In this embodiment, the angle adjustment grooves 41a, 41b and 41c are selected in consideration of the mounting angle of the base 39, the fitting tongue piece 42 is fitted, and the second base 39b is screwed to the first base 39a. Install. (See Figure 7)
By providing the second base 39b in this way, the mounting angle of the base 39 can be changed at 10 ° intervals.
Since the size of the control operation device is limited and it is difficult to produce the mounting screw holes 45 at 10 °, it is difficult to produce this problem by providing the second base 39a as described above. The problem is solved and the device is downsized.
Thereby, the direction in which the cable 50 is routed can be determined in detail.

In the present embodiment having the above-described configuration, the base 39 is attached to the holder 33 in which the sun gear 32 connected to the operation knob 31 is fitted. In this case, the planetary gear 49 is connected to the gear 32b of the sun gear 32 and the inscribed gear. The mounting angle of the base 39 is determined in consideration of the pulling-out direction of the cable 50 that can be coupled to the air conditioning unit (not shown) while minimizing the bending.

With the mounting angle of the base 39 determined in this way, the positioning pin 38 of the holder 33 is inserted into one mounting screw hole 45 (see FIG. 7) of the second base 39b to temporarily fix the base 37, and then The mounting screw 53 is screwed into the screw holes 33d and 33e of the holder 33 and the mounting screw hole 45 (see FIG. 7) of the second base 39b, and the base 39 (first base 39a and second base 39b) is fixed to the holder 33. To do.

Thereafter, the inner cable 50 a of the cable 50 is connected to the connecting portion 49 a of the planetary gear 49, and one end portion of the outer cable 50 b is fixed to the cable holding portion 52.
Further, the valve 43 is mounted in the mounting hole 44 of the second base 39a.
The sign plate 37 is attached to the front side after the sun gear 32 is fitted to the holder 33.

In the case of the control operation device according to the present embodiment, if the fitting tongue piece 42 is fitted into any of the angle adjusting grooves 41a, 41b, 41c and the second base 39b is attached to the first base 39a, the base 39 becomes the second. The angle can be adjusted by the arrangement interval of the mounting screw holes 45 of the base 39b.
That is, the angle of the base 39 can be adjusted in a range of 360 ° at intervals of 30 ° according to a direction in which the cable 50 can be arranged with less bending.

Further, when the fitting tongue piece 42 is fitted in each of the angle adjustment grooves 41a, 41b, 41c and the second base 39b is attached to the first base 39a, the angle adjustment grooves 41a, 41b, Since the angle adjustment of −20 °, 0 ° + 20 ° by 41c is added, 360 ° ÷ {(360 ° ÷ 30 °) × 3 ways} = angle adjustment of the base 39 in a range of 360 ° at intervals of 10 ° be able to.

The angle of the base 39 can be further finely adjusted at intervals of 5 ° by switching and fitting the mounting projections 37b of the marking plate 37 to the mounting grooves 33a to 33b of the holder 33.
As described above, when the mounting projection 37b is fitted in the mounting groove 33b, the mounting angle of the marking plate 37 with respect to the holder 33 changes, and the symbol 37a of the marking plate 37 tilts. It is assumed that the symbol 37a is in the normal state (neutral as viewed from the user).

If the second base 39b is attached to the holder 33 in this state, the attachment angle of the base 39 can be changed within a range of 360 ° at intervals of 5 °.
Although the interval between the mounting grooves 33a and 33b of the holder 33 can be set to 5 °, the size of the control operation device is limited, and in practice it is difficult to set it to 5 ° in production. In this embodiment, the angle is set to 15 °.

Furthermore, in order to maintain the relationship between the position of the symbol 37a on the indicator plate 37 indicated by the instruction portion 31c of the operation knob 31 and the moving position of the planetary gear 49 in the long hole 51, the inclination of the symbol 37a is corrected as described above. In view of the above, the connection convex portion 32c of the sun gear 32 is switched from the connection concave groove 31a to 31b of the operation knob 31 so that the instruction portion 31c of the operation knob 31 can appropriately indicate the symbol 37a.

In the above-described control operation device, the sun gear 32 is rotated by the rotation operation of the operation knob 31, so that the planetary gear 49 connected to the sun gear 32 rotates while rotating around the sun gear 32.
Therefore, since the connecting portion 49a located at the eccentric position of the planetary gear 49 moves substantially linearly in the long hole 51, the inner cable 50a connected to the connecting portion 49a is linearly pushed out and pulled back. Control the operation of the air conditioning unit.

Further, in this control operation device, the mounting angle of the base 39 can be set finely according to the arrangement position of the air conditioning unit, so that the direction in which the cable 50 is pulled out is suitable for the arrangement position of the air conditioning unit.
As a result, the cable 50 can be reduced as much as possible, and the sliding resistance of the inner cable 50a with respect to the outer cable 50b can be reduced. Therefore, the control operation device is excellent in operation feeling.

Although one embodiment has been described above, the connection grooves 31a and 31b of the operation knob 31 may be provided in the sun gear 32, and the connection protrusion 32c of the sun gear 32 may be provided in the operation knob 31. The mounting grooves 33 a and 33 b can be provided on the marking plate 37, and the mounting projection 37 b of the marking plate 37 can be provided on the holder 33.
Note that the control operation device of this embodiment is attached and fixed to a heater control panel of a vehicle or the like with the attachment angle of the base 39 adjusted.

  It can be applied as a dial type control operation device such as a control operation device for air conditioning of vehicles.

31 Operation knobs 31a, 31b Connection groove 31c Indicator 32 Sun gear 32c Connection protrusion 33 Holder 33a, 33b Mounting groove 33d, 33e Screw hole 37 Marking plate 37a Symbol 37b Mounting protrusion 38 Positioning pin 39 Base 39a First base 39b Second base 41a, 41b, 41c Angle adjusting groove 42 Mating tongue 45 Mounting screw hole 46 Mounting screw 48 Internal gear 49 Planetary gear 50 Cable 51 Long hole 52 Cable holding part 53 Mounting screw

Claims (7)

An operation knob formed in a cylindrical shape;
A cylindrical sun gear that rotates integrally with the operation knob and transmits the driving force of the operation knob;
A planetary gear meshed with the sun gear;
In a dial type control operation device comprising a cable that is connected to the planetary gear to operate an external device,
A holder for fitting the cylindrical portion of the sun gear to the outer periphery and rotatably supporting the sun gear;
Provided on one side of the holder, and a sign plate that indicates the rotation operation position of the operation knob in combination with the indicator of the operation knob;
A base formed with an arcuate shape along the periphery of the sun gear, and provided with an inscribed gear for guiding the planetary gear in a moving direction in cooperation with the sun gear, and with a cable holding portion of the cable;
Furthermore, an attachment setting unit that can attach the base to the other side of the holder by changing the position on the circumference around the rotation axis of the sun gear,
A dial-type control operating device, comprising: a sign plate setting unit that enables setting of an angle of attachment of the sign plate to the holder. In the dial type control operating device according to claim 1,
The marking plate setting section includes a plurality of concave grooves formed at a predetermined interval on either the peripheral portion of the holder or the peripheral portion of the marking plate, and the plurality of concave grooves provided on the other of them. A dial-type control operating device, characterized in that it is formed with a convex portion that selects and fits one to set the mounting angle of the marking plate. In the dial type control operating device according to claim 1,
A dial-type control operating device, comprising a knob setting portion that is attached to the operation knob by changing a connection position of the operation knob and the sun gear according to the setting of the sign plate setting portion. In the dial type control operating device according to claim 3,
The knob setting unit selects one of the plurality of grooves formed on the other of the operation knob and the sun gear with a predetermined interval, and one of the plurality of grooves formed on the other of them. A dial-type control operating device comprising a convex portion that is fitted to set a mounting angle of the sun gear. In the dial type control operating device according to claim 1,
The base is formed by a first base provided with an inscribed gear and a cable holding portion, and a second base attached to the holder,
The first and second bases are provided with mounting setting portions that allow the second base to be mounted to the first base at a plurality of positions on the circumference around the rotation axis of the sun gear. Characteristic dial-type control operation device. In the dial type control operating device according to claim 5,
The dial-type control operating device is characterized in that the second base is provided with the above-described attachment setting portion that can be attached to the holder at a plurality of positions on the circumference around the rotation axis of the sun gear. . An operation knob formed in a cylindrical shape;
A cylindrical sun gear that rotates integrally with the operation knob and transmits the driving force of the operation knob;
A planetary gear connected to the sun gear;
A cable connected to the planetary gear to operate an external device;
A holder for fitting the cylindrical portion of the sun gear to the outer periphery and rotatably supporting the sun gear;
Provided on one side of the holder, and a sign plate that indicates the rotation operation position of the operation knob in combination with the indicator of the operation knob;
A first base provided with an inscribed gear for guiding the planetary gear in the movement direction in cooperation with the sun gear and the cable holding portion, which is formed in an arc shape around the periphery of the sun gear, and can be attached to the first base And the second base,
In the dial type control operation device for setting the mounting angle of the sign plate to the holder,
The indicator plate is centered on the axis of rotation of the sun gear, the sun gear is relative to the control knob, the second base is relative to the first base, and the second base is relative to the holder. A dial-type control operating device characterized in that it can be mounted at a plurality of mounting angles.

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